Fact Snapshot
- Paper: S-scheme heterojunctions of metal-doped ZnIn2S4/TpPa-1: Regulating H adsorption/desorption and internal electric field for boosted dual-functional photocatalysis
- Equipment: XH-300PE
- Source: Chinese Journal of Catalysis, 2026
- Research direction: COF, S-scheme, and microwave hydrothermal
- Core conditions: Temperature 120 °C / 70 °C, Power 600W, and Time 30 min / 45 min
- Key results: Hydrogen production rate 1648 μmol g-1 h-1 and AQE 4.23%
Research Abstract
S-scheme heterojunctions of metal-doped ZnIn2S4/TpPa-1: Regulating H adsorption/desorption and internal electric field for boosted dual-functional photocatalysis was published in Chinese Journal of Catalysis (2026) and is indexed as a Xianghu Q1 application case for XH-300PE. The source record connects it with COF, S-scheme, and microwave hydrothermal. Core operating conditions include Temperature 120 °C / 70 °C, Power 600W, and Time 30 min / 45 min. Key reported results include Hydrogen production rate 1648 μmol g-1 h-1 and AQE 4.23%.
Research Background and Problem
Equipment Use and Experimental Conditions
| Item | Parameter |
|---|---|
| Temperature | 120 °C / 70 °C |
| Power | 600W |
| Time | 30 min / 45 min |
Key Result
| Metric | Result |
|---|---|
| AQE | 4.23% |
| Hydrogen production rate | 1648 μmol g-1 h-1 |
Evidence Details
After undergoing a microwave-hydrothermal process for 30 min at 90 °C followed by 45 min at 120 °C, which was performed on Magicube XH-300PE, purchased from Beijing Xianghu Science and Technology Development Co., Ltd, 600W.
The resulting solution underwent a microwave-hydrothermal reaction in a 100 mL Teflon-lined autoclave for 30 min at 90 °C followed by 45 min at 120 °C.
Additional source evidence: source values include 420 nm, 4.23%, 3.01%. Entities: TpPa-1.
Ultimately, Mo0.01-ZIS/TpPa-1 exhibited visible-light driven H2 evolution rate of 1648 μmol g−1 h−1 and N-benzylidenebenzylamine formation rate of 1812 μmol g−1 h−1, better than Ni0.048-ZIS/TpPa-1, and superior to parent ZIS/TpPa-1.
Additional source evidence: source values include 70 °C, 12 h.
Mechanism / Method Highlights
- Method context: Temperature 120 °C / 70 °C, Power 600W, and Time 30 min / 45 min.
- Equipment evidence: After undergoing a microwave-hydrothermal process for 30 min at 90 °C followed by 45 min at 120 °C, which was performed on Magicube XH-300PE, purchased from Beijing Xianghu Science and Technology Development Co., Ltd, 600W
- Source evidence: The resulting solution underwent a microwave-hydrothermal reaction in a 100 mL Teflon-lined autoclave for 30 min at 90 °C followed by 45 min at 120 °C
- Additional source evidence: source values include 420 nm, 4.23%, 3.01%. Entities: TpPa-1
- Reported outcome: Hydrogen production rate 1648 μmol g-1 h-1 and AQE 4.23%.
Application Value
- Provides a peer-reviewed SoarNova / Xianghu Q1 application case for XH-300PE.
- Supports English discovery around COF, S-scheme, and microwave hydrothermal.
- Preserves quantitative result evidence: Hydrogen production rate 1648 μmol g-1 h-1 and AQE 4.23%.
- Maintains source-level evidence details: Equipment evidence: After undergoing a microwave-hydrothermal process for 30 min at 90 °C followed by 45 min at 120 °C, which was performed on Magicube XH-300PE, purchased from Beijing Xianghu Science and Technology Development Co., Ltd, 600W, Source evidence: The resulting solution underwent a microwave-hydrothermal reaction in a 100 mL Teflon-lined autoclave for 30 min at 90 °C followed by 45 min at 120 °C, Additional source evidence: source values include 420 nm, 4.23%, 3.01%. Entities: TpPa-1, and Abstract evidence: Ultimately, Mo0.01-ZIS/TpPa-1 exhibited visible-light driven H2 evolution rate of 1648 μmol g−1 h−1 and N-benzylidenebenzylamine formation rate of 1812 μmol g−1 h−1, better than Ni0.048-ZIS/TpPa-1, and superior to parent ZIS/TpPa-1.
Related Equipment
FAQ
Which Xianghu instrument is covered by this page?
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Which publication does this case come from?
S-scheme heterojunctions of metal-doped ZnIn2S4/TpPa-1: Regulating H adsorption/desorption and internal electric field for boosted dual-functional photocatalysis
Chinese Journal of Catalysis, 2026
DOI: 10.1016/S1872-2067(25)64879-0
